I have a Sandisk Ultra 32G CF Card. It uses 2 SDTNQGBMB-016G NAND Chips.The controllers seems to be defective, but I have good hope the NAND chips are not impacted.

The VNR Reader does not have the SDTNQGBMB-016G in its database.If I use the settings from SDTNQCCMA-064G, it can read the ID, and I can see data in the dump viewer.It does not read any ONFI Parameters however. (And since the device has a different capacity, I don't know what parameters (page/block/plane) will differ, but it can not be the same)

I can not find any datasheets of these chips. Is there anyone who has the correct parameters of this IC?

Next part;The controller used in the CF card is a 20-82-00314-4 The VNR has a sandisk CF with the 20-82-00309-3 controller in its database.Would those controllers be the same to decode? If not, does anyone have the correct decoding method for this card?

My first instinct would be to just try to find the same model of CF-card and transfer the NAND's, but I bought the VNR to not depend on that strategy

Hello once again! We have this NAND chip in database. Configurations in VNR are stored by NAND ID number, instead of model. The reason is simple: one NAND chip can be found in many packages(BGA, TSOP or monolithic etc.). Storing configs by models will results to many duplication.

Thank you for the tip's and pointers.I was indeed confused that the Chip ID was foud 3 times in the database. Therefore, I tought that the phisical form and type number of the chip was the most important, not the ID.There are 3 entries in total. 2 entries in the database have the same parameters.

The "MonoSD" one does not seem to work, the reader goes in error state after reading the first few pages but the "monolith" one with different page size does read the first NAND chip.Now trying to read the second chip. I had some difficulties reading the second chip on the first try, but lowering the voltage seems to pursuade the chip to read.

Well, I am at learning stage Of VNR Myself And More Confused Then You Are .I have a SM2236 With 4 BGA-152 Chips and i Need To Try Reading Then With VNR .But I Am Presented With Options That are going above my head .I am gonna make a post here soon on that

It is a type of standard component marking. U usually means IC. U4x could be one circuit function such as power chips U5x can be other functions such as memory, U1x might be controller... where the "x" is a number of the component It is a way of knowing which components belong to what circuit function.

It is a type of standard component marking. U usually means IC. U4x could be one circuit function such as power chips U5x can be other functions such as memory, U1x might be controller... where the "x" is a number of the component It is a way of knowing which components belong to what circuit function.

Well, I am absolutely clear on this ,My question was Why Read U51 As Chip 1 And U50 As Chip 2 .I have a Good Electronics Background Haque

The soft Center manual for reading chips is probably the only reference to a standardised way of doing it. It is just so everyone that uses SC tool is on the same page when reading chips for FE. It is not any industry standard or anything, just a guide for that tool.

What matters is finding the dump order, not really what order the chips are numbered. The only way this helps is reall prior experience on a certain device.

The jury is out on whether the PCB designers label their IC's in the same order that the firmware designers plan to use them, in relation to the order. My guess would be that it is a crap shoot

Well, You Are Also Here And i Am Also Here For The Next Three Months You Wait And Watch .The Proper Explaination is Here -> viewtopic.php?p=257768#p257768 .Most of The Controllers Embed Thier Controller No in the NAND dumps ,So To Arrange Them In Order Its Necessary To check Them and Set The Order of The Dumps .I have a SM2236 Right Now and i Will Post The Details Soon Incase Someone Does Not Know .I had Some of The Initial NAND Tools From Acelab but never ventured deep into flash ,Things Are Very Different Now Buddy .In My Case i Have a Chip With 4 Parts Each ,Hence 16 Parts In Total

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